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Peripheral Simulation
For STMicroelectronics STR712FR2 — Power, Reset and Clock Control Unit (PRCCU)
Simulation support for this peripheral or feature is comprised of:
- Dialog boxes which display and allow you to change peripheral configuration.
- VTREGs (Virtual Target Registers) which support I/O with the peripheral.
These simulation capabilities are described below.
Power, Reset and Clock Control Unit (PRCCU) Dialog
The Power, Reset and Clock Control Unit dialog configures the
power saving mode, clock dividers, boot configuration and the core,
memory and peripheral clocks of the ARM controller.
Clock Control & Flags
-
PRCCU_CCR (Clock Control Register) contains the clock
control bits.
-
PRCCU_CFR (Clock Flag Register) contains the clock
indicator flag bits.
-
DIV2 (OSCIN Divided by 2) is set to divide CLK by
2.
-
WFI_CKSEL (Wait For Interrupt Clock Select) is set to
use CK_AF for MCLK during Low Power WFI, otherwise use CLK2/16
during Low Power WFI. Setting this bit effectively enables CKAF_SEL
in WFI mode.
-
CSU_CKSEL (CSU Clock Select) uses the clock from the PLL
multiplier for the system clock when LOCK and VROK are set.
-
CK2_16 (CLK2/16 Select) when set, uses CLK2 (or PLL
output depending on CSU_CKSEL) as the source of RCLK. If reset,
CLK2 divided by 16 is used.
-
EN_STOP (Stop Interrupt Masking Bit) enables the stop
interrupt request.
-
EN_CK2_16 (CK2_16 Interrupt Masking Bit) enables the
CK2_16 interrupt request.
-
EN_CKAF (CKAF Interrupt Masking Bit) enables the
CKAF interrupt request.
-
EN_LOCK (Lock Interrupt Masking Bit) enables
the LOCK interrupt request.
-
SRESEN (Software Reset Enable) allows a software
reset (HALT bit in PRCCU_SMR) if EN_HALT is also set.
-
CKAF_SEL (Alternate Function Clock Select) is set
to select the alternate function clock. When the selection is
successful, the CKAF_ST status bit is set.
-
STOP_I (Stop Interrupt Pending) is set when a Stop
Interrupt request is pending.
-
CK2_16_I (CK2_16 Switching Interrupt Pending) is set
when a C2_16 Switching Interrupt request is pending.
-
CKAF_I (CK_AF Switching Interrupt Pending) is set when a
CKAF Switching Interrupt request is pending.
-
LOCK_I (Lock Interrupt Pending) is set when a Lock
Interrupt request is pending.
-
LOPWFI (Low Power Mode During Wait For Interrupt)
is set to force the device into Low Power Mode when an Wait For
Interrupt (WFI) instruction executes.
-
CKAF_ST (CK _AF Status) is set when CK_AF is the clock
source. If reset, the PLL clock, CLK2 or CLK2/16 is the clock
source depending on CSU_CKSEL.
-
WKP_RES (External Wake Up Flag) is set when a reset
occurs generated by a external wake-up event in standby mode.
-
LVD_RES (Main Voltage Regulator LVD Reset Flag) is set
when a main voltage regulator LVD reset occurs.
-
RTC_ALARM (Real-Time Clock Alarm Reset Flag) is set when
a real-time clock reset occurs.
-
WDG_RES (Watchdog Reset Flag) is set when a watchdog
reset occurs.
-
SOFTRES (Software Reset Flag) is set when a software
reset occurs.
- LOCK (PLL Locked) is set when the PLL is locked.
Power Control
-
PRCCU_PWRCR (Power Control Register) contains the
following control bits:
-
WREN (Register Write Enable) allows the other
register bits in PRCCU_PWRCR (this register) with write
permission to be written.
-
BUSY (Backup Logic Busy) is set to indicate
that a previous write operation is still in progress. You
cannot write to this register when this bit is set.
-
WKUPALRM (Wakeup or Alarm Active) is set to
indicate when the external WAKEUP pin or an internal wake-p source
is active.
-
VROK (Main Regulator OK) is set when the main
voltage regulator is stable.
-
FLASHLP (Flash Low Power Mode Select) if set, this
bit disables burst mode and wait states are not generated for
flashing. Default is reset, to allow burst mode and wait
state generation.
-
LVDDIS (Low Voltage Detector Disable) disables
the low voltage detection so it cannot generate an MCU reset
when a low voltage condition occurs. Software cannot clear this
bit, only an MCU reset.
-
OSCBYP (32KHz Oscillator Bypass Enable) when
set, this bit turns off the 32KHz oscillator to reduce power
consumption and allow external clocking.
-
PWRDWN (Activate Power Down Mode) enables power
down mode which turns off the main voltage regulator and power to
the device kernel. The Low Power Regulator is still active.
-
LPVRBYP (Low Power Regulator Bypass) when set,
turns off the Low Power (Backup) Voltage Regulator. Power to the
device kernel must be supplied via the V18
pin. NOTE: If set without an
adequate power supply attached, the device could be damaged
permanently.
-
LPVRWFI (Low Power Regulator in Wait-For-Interrupt
Mode.) when set, turns off the main voltage regulator in low power
modes STOP and LP_WFI.
-
VRBYP (Main Regulator Bypass) when set, turns off
the main voltage regulator. Power to the device
kernel must be supplied via the V18 pin. NOTE: If set without an adequate power supply
attached, the device could be damaged
permanently.
System Mode
-
PRCCU_SMR (System Mode Register) contains the following
control bits:
-
WFI (Wait For Interrupt Mode) is set by the
hardware to indicate an interrupt request is acknowledged by the
External Interrupt Controller(EIC).
-
HALT (Halt) when set, generates a software
reset if SRESEN and ENHALT bits are set.
Peripheral Enable & Reset
-
PRCCU_PER (Peripheral Enable Register) contains the
following control bits:
-
EMI (External Memory Interface Enable) is set to
allow External Memory Interface(EMI) operation.
-
USB (USB Peripheral Enable) is set to
allow USB peripheral operation.
-
PRCCU_PRSTR (Peripheral Reset Control Register) contains
the following control bit:
-
EMIRST(EMI Reset) is set to reset the External Memory
Interface.
PLL Configuration
-
PRCCU_PLL1CR (PLL 1 Configuration Register) contains the
following control bits:
-
FREEN(PLL Free Running Mode Enable) if set in conjuction
with DX, provides a slow frequency back up clock selcted by the
CSU_CKSEL. If reset, the PLL uses the MX and DX settings.
-
FREF_RANGE(Reference Frequency Range Select) is set to
configure the PLL for CLK2 frequencies greater than 3MHz. If reset,
CLK2 frequencies between 1.5MHz and 3MHz may be used.
-
MX(PLL Multiplier) selects the multiplier (12, 16, 20 or
24) for the PLL.
-
DX(PLL Output Clock Divisor) selects the PLLCK divisor
(1-7).
PLL Configuration (HDLC & USB)
-
PRCCU_PLL2CR (PLL 2 Control Register) contains the
following control bits:
-
FRQRANGE(PLL 2 Frequency Range Select) is set to
configure the PLL for CLK2 frequencies isbetween 3MHz-5MHz. If
reset, CLK2 frequencies between 1.5MHz-3MHz may be used.
-
MX(PLL 2 Multiplier) selects the multiplier (12, 16, 20
or 24) for the PLL.
-
DX(PLL 2 Output Clock Divisor) selects the PLLCK divisor
(1-7).
-
PLLEN(PLL Select) is set to use the PLL clock. You may
only set this bit when the PLL is locked (i.e. LOCK bit is
set).
-
USBEN(Enable PLL Clock to USB) is set to connect the USB
reference clock to HCLK. If reset, the 48MHz reference clock is
used for USBCLK.
-
IRQMASK(Enable Interrupt Request to CPU on LOCK
Transition) is set to generate an interruptrequest on any change in
the LOCK bit status.
-
IRQPEND(Interrupt Request to CPU on LOCK Transition
Pending)
-
LOCK(PLL2 Locked) is set by the hardware to indicate the
PLL is locked.
Clock Divider Control
-
PRCCU_MDIVR (MCLK Divider Control Register) contains the
following control bits:
-
FACT(Divisor Factor) selects the RCLK divisor (1, 2, 4
or 8) to generate MCLK.
-
PRCCU_PDIVR (Peripheral Clock Divider Control Register)
contains the prescaling factor for the APB clocks by setting the
following control bits:
-
FACT1(APB1 Peripheral Divisor) selects the RCLK divisor
(1, 2, 4 or 8) to generate PCLK1.
-
FACT2(APB2 Peripheral Divisor) selects the RCLK divisor
(1, 2, 4 or 8) to generate PCLK2.
Boot Confguration
-
PRCCU_BOOTCR (Boot Control Register) contains the
following boot configuration bits:
-
BOOT(Boot Mode) selects the boot mode (BOOT1 and BOOT0
pins).
-
PKG64 (64-pin Package Die) if set, indicates the chip is
mounted on a 64-pin package. If reset, a 144-pin package is
used.
-
HDLC (HDLC Active) is set when the HDLC controller is
enabled.
-
CAN (CAN Active) is set when the CAN controller is
enabled.
-
ADCEN (Enable ADC) is set to enable the ADC. A 1ms
startup delay is required after enabling the ADC.
-
SPI0EN (Enable SPI0) is set to enable the SPI 0
controller. Pins P0.1 to P0.3 are assigned to SPI 0. UART3 and
I2C1 are not available while using this controller.
-
LPOWDBGEN (Enable Reserved Debug Features for STOP Mode)
is set to force an exit from STOP mode and enabling internal
clocks, allowing an emulator to take control of the MCU.
-
USBFILTEN (Enable USB Standby Filter) is set to enable
the low-pass filter to improve immunity to noise while the USB is
in STANDBY mode.
Core & Memory and Peripheral Clocks
-
CK (External Oscillator) is the value (in MHz) of the
external oscillator used for the source clock signal.
-
RTCX(Real-Time Clock) is the value (in kHz) of the
external oscillator used for input to the real-time clock.
-
RCLK is the output of either the system PLL, or the
CK_AF alternate clock source is enabled.
-
MCLK (Main Clock) is the clock used for the CPU,
internal memory, EMI and the PRCCU.
-
PCLK1 is derived from RCLK and used for APB1
peripherals.
-
PCLK2 is derived from RCLK and used for APB2
peripherals.
HDLC & USB Clocks
-
HCLK contains the clock value present at the HCLK
pin.
-
USBCLK contains the clock value present at the USBCLK
pin.
-
HDLC Clock displays the clock value connected to the
HDLC peripheral.
-
USB clock (Main Clock) displays the clock value
connected to the USB peripheral.
Boot Control Input Pin VTREG
Data Type: bit
The BOOTEN VTREG allows you to control the built-in
boot options of the STR71x device.
When BOOTEN is 0, the device is in User mode and simulates
executing code in flash memory mapped a 0x0.
When BOOTEN is 1, the BOOT0 and BOOT1 settings in the
PCU_BOOTCR register allow the STR71x device to
boot from one of the following:
- the on-chip bootloader in System Memory,
- code stored in internal RAM mapped at 0x0, or
- code stored in External RAM mapped at 0x0.
Clock Input VTREG
Data Type: unsigned long
Hardware Standby Pin VTREG
Data Type: bit
HDLC Clock Input VTREG
Data Type: unsigned long
Peripheral Clock 1 VTREG
Data Type: unsigned long
Peripheral Clock 2 VTREG
Data Type: unsigned long
RCLK Output VTREG
Data Type: unsigned long
SmartCard Clock VTREG
Data Type: unsigned short
USB Clock Input VTREG
Data Type: unsigned long
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